Mower



Dec. 5, 1950 P. R. scHRox-:PPEL

MONER 6 Sheets-Sheet l Filed July 14, 1945 Dec. 5, 1950 Filed July 14, 1945 v P. R. scHRol-:PPEL 2,532,426

INVENTOR @DMW/@MW @www Dec. ,5, 1950 P. R. scHRoEPPl-:L

MOWER 6 Sheets-Sheet 3 Filed July 14, 1945 Y Dec. 5, 1950 P. R. scHRoEPEL MOWER 6 Sheets-Sheet 4 Filed July 14, 1945 L L w w11- P. R. SCHROEPPEL Dec. 5, 195o MONER 6 Sheets-Sheet 5 Filed July 14, 1945 .HMM

Dec. 5, 1950 P. R. SCHROEPPEL MOWER 6 Sheets-Sheet 6 Filed July 14, 1945 @Mgg Patented Dec. 5, 1950 MOWER Paul B. Schroeppel, Rockford, Ill., assigner to J. I. Case Company, Racine, Wis., a corporation of Wisconsin Application July 14, 1945, Serial No. 605,004

s claims. 1

The present invention relates to mowers, and more particularly to mowers adapted to be mounted on and carried by tractors, and an object of the invention is to generally improve the construction and operation of devices of this class.

More particularly, an object of the invention is to provide a mower which will have an extreme range of upward and downward swinging movement without disturbing the registration of the sickle with the guards.

Another object is to provide an improved ad- `iustment for the cutter bar which will maintain the desired tilt of the guards in all positions of swinging of the bar and in which adjustments for tilt will not affect the lead of the cutter bar when swung to extreme upward or downward positions.

Other objects are to provide improved controls for the cutter bar position; an improved drag bar mounting; a greatly improved inner shoe which provides for relief of excessive stress in the event of encountering of an obstruction; and an improved latch arrangement for such a shoe.

Other objects and advantages will become apparent from the following description and accompanying drawings, in which a satisfactory embodiment of the invention is shown, but it is to be understood that the invention is not limited to the exact details disclosed, but includes all such variations and modifications as fall within the spirit of the invention as herein expressed.

In the drawings,

Figure 1 is a plan view of a device constructed according to the invention, in place on a tractor. the tractor being indicated in dotted lines and broken away to avoid obscuring any mower parts.

Fig. 2 is a front elevation of the same, parts being broken away and others omitted where they form no part of the invention.

Fig. 3 is an enlarged section on the line 3-3 of Fig. 1.

Fig. 4 is a right side elevation partly in section on the line 4 4 of Fig. 2, with parts removed.

Fig. 5 is an enlarged detail of certain controls indicated in Fig. 4.

Fig. 6 is an enlarged plan view of certain mechanism indicated in Fig. '1.

Fig. 7 is a similar View with the parts in another position.

Fig. 8 is a vertical sectional view on the line 0 8 of Fig. 6.

Fig. 9 is a horizontal sectional view on the line 0--9 of Fig. 8.

Fig. 10 is a plan View of certain parts indicated in Fig. 8.

Fig. 11 is an enlarged front elevation of certain mechanism indicated in Fig. 9.

Fig. 12 is a sectional view on the line I2-I2 of Fig. 1l.

Fig. 13 is a vertical sectional view on the lino i3i2 of Fig. 8. y

Fig. 14 is an enlarged front elevation of certain mechanism indicated in Fig. 2.

Fig. 15 is a horizontal sectional view on the line lB-lll of Fig. 14.

Fig. 16 is an enlarged detail taken on the line IB-IB of Fig. 4.

Fig. 1'1 is a sectional view taken on the line i1-I1 of Fig. 16.

Similar reference characters have been applied to the same parts throughout the drawing and the following speciication.

As seen in Fig. 1 the illustrative device is shown applied to a tractor T to which is attached a. drag-bar D, which in turn serves to maintain a cutter bar C in correct relation to the tractor through connection with a shoe S flxedly connected with the cutter bar C. The mechanism of the mower is driven from a power take-oil' P driven from the tractor engine, not shown, in well-known manner, an extensible joint shaft E transmitting the motion to mechanism on the shoe, which will be fully described presently. The mower is thus carried on and operated by the tractor, necessary relative movements 'between the two being accommodated by extensible shaft E, extreme changes in position being possible in cutter bar C without interference with proper driving, as will appear.

Power take-off P includes a shaft 20 projecting from the rear of tractor T and rotatable from the engine power in well-known manner not necessary to describe further. Shaft 2li carries a pulley 2l driving, through a belt 22 a pulley 23 on a shaft 24. Shaft 24 is carried in a bearing element 25 supported on a bracket structure 20 so as to be shiftable for tightening belt 22, an adjusting bolt 21 having lock nuts 28-28 engaged with bracket 26 being fixed to bearing 25, manipulation of nuts 28-28 serving to shift bearing 25 in a controlled manner as will be understood. A guard or housing 29 is preferably carried by bracket 26 and encloses the belt and pulleys for reasons of safety.

Shaft 2l connects with a universal joint generally designated as 30 of suitable or well-known form .driving a section 3| having a slidable but non-rotatable connection with a section 32 forming the active element of extensible shaft E. Sec- 3 tion 32 connects with a universal joint generally designated as 33 which is preferably similar to above mentioned joint and which connects with a crankshaft 34 best seen in Figs. 8, 9 and 13. An extensible housing of well-known form generally designated as 35 is supported between joints 30 and 33 to enclose the rotating shaft sections 3| and 32.

Crankshaft 34 in the present instance is supported in a needle type roller bearing 38 having rollers 31-31 to reduce friction and provide durable support against the vibration set up in this form of mechanism. Bearing 36 is firmly supported in a lower shoe portion 38 and solidly retained therein by means of a cap 39 fixed to portion 38 as by screws 40--40. Portion 38 is rotatably mounted on an upper shoe portion 4| to relieve excessive stress in the event oi encountering an obstruction, as will appear. Cutter bar C is fixedly attached to portion 38 by bolts or the like 42-42 which also retain in position a guide 43 for a knife-head 44 constituting part of a sickle 45. A complementary guide 46 for knife-head 44 is retained on portion 38 by bolts 41-41. Knife-head 44 connects by a ball joint 48 with a pitman 49 having a hinged connection 50 to a crank pin bearing 5| engaging a crank pin 52 carried by a crank disk 53 fixed on above mentioned crankshaft 34. It is to be noted that crankshaft 34 and ball joint 48 are substantially on a level so that pitman 43 swings above and below the extended path of travel of the joint 48. Since crank 53 turns counterclockwise as seen in Fig. 13, the resultant pressure on knife head 44 in addition to the sickle actuating movement is always down on the cutter bar, thus minimizing the strain and wear on guides 43 and 48 and avoiding the development of up-and-down play and rattling of the sickle. Since crankshaft bearing 36 is rigidly mounted on shoe portion 38, which in turn is solidly fixed to cutter bar C, it follows that the motion of sickle 45 will always be the same relatively to cutter bar C and guards 54 regardless of any position that portion 38 may take. Universal joint 33 provides for the transmission of motion to crankshaft 34 throughout the possible range of movement of portion 38.

The present mower is particularly adapted for dimcult conditions such for example as mowing the shoulders of highways where extreme upward and downward angles of the cutter bar are required. Such angularity may be achieved without disturbing the other adjustments of the mower, as will appear. Upper portion 4| is pivoted about a journal portion 55 of drag bar D, and which journal portion is directed, and remains, substantially parallel with the direction of travel of the tractor. Portion 4| swings about this journal, all angular adjustments of the shoe being accomplished without changing the position of the journal. A part-spherical bearing portion 58 is fixed on journal 55 on which is seated a socket portion 51 of above mentioned portion 4|, the whole forming a suitable type of pivot bearing for the shoe S. Socket portion 51 continues as a sleeve portion 51a enclosing journal 55 and formed larger than said journal so as to provide a clearance area 51h. Spaced from portion 51 a bushing 58 is rotatably received in a bore 59 in a cap-like fitting 60 and has a bore 6| which is eccentric to above inentioned bore 53. Fitting 60 is fixed with portion 4| so that shifting of bushing 58 will alter the position of portion 4| about spherical portion 56.

In this way the cutter bar may be angled forward or back relatively to drag bar D so that the lead may be adjusted.l

Fitting 60 is clamped immovably in contact with a. surface 62 on shoe portion 4|, which is `curved about the center of spherical portion 58 so that relative movement of portion 4| and fitting 60 will result in angular adjustment of cutter bar C so as to tilt guards 54 upwardly or downwardly as desired. Fitting 6|) is clamped in position by a bolt 63 engaged with portion 4| and maintaining, by means of a nut 64, a block 65 in clamping engagement with fitting 6|). the latter and block 465 having interfltting teeth and notches 66 to positively locate fitting 68 when nut 64 is tightened. It will now be apparent that bushing 58 and fitting 60 constitute adjustable bearing means which can be adjusted at least to a limited extent in any direction laterally of or substantially normal to the axis of sleeve 51, to the extent permitted by the clearance area 51h.

As will now be apparent, shifting of bushing 58 for adjusting the lead of cutter bar C will also affect the tilt of the bar. but this is compensated for by loosening nut 64 and shifting portion 4| relatively to fitting 60, after which the parts are locked in position by tightening nut 64. Bushing 58 is fixed in position in fitting 60 by means of a flange B1 having a series of notches 88-68 one of which is engaged by a pin 69 projecting from fitting B0. Bushing 58 is disengaged from the pin by moving slightly to the right as seen in Fig. 9, and turning as by means of a wrench to the desired position. Bushing 58 is preferably given an angular outward configuration to facilitate this. A nut 10 on journal portion 55 presses bushing 58 backwardly against portion 4|, thus keeping flange 61 in engagement with pin 69 and maintaining socket portion 51 seated on spherical portion 56. Washers 10a are preferably interposed between nut 18 and bushing 58 and a locking pin 10b, Fig. 9 maintains the adjustment of nut 10. It will now be apparent that, although portion 4|, and accordingly cutter bar C can be adjusted in any direction relatively to drag bar D, it always swings about the centerline of journal portion 55. Thus unlike prior structures which depend on adjustment of the drag bar for lead or tilt adjustment, or both, lead is not converted to tilt, and vice versa, when the cutter bar is swung into extreme upper or lower positions.

As above mentioned, lower portion 38 of shoe S is pivotally carried by upper portion 4|, and in the event of encountering an obstruction by cutter bar C, may turn thereon, allowing cutter bar C to swing back and relieve the stress, thus saving the parts from damage. For this pur-v pose upper portion 4| has a pintle 1| carried by a bracket 12 permanently secured to portion 4|, said pintle establishing a vertical center line about which portion 38 may swing. Portion 4| also has a circumferential guiding flange 13, a circumferential guiding surface 14, and, preferably, a guiding groove 15. Lower portion 38 has a surface 16 complementary to flange 13 and a guiding plate 11, surface 16 and plate 11 enclosing flange 13 and guiding portion 38 in relation thereto. Portion 38 also has a portion 18 engaging pintle 1| to maintain portion 38 centered on portion 4|. Portion 38 is formed complementary to surface 14 and above mentioned cap portion 33 preferably h-as a rib 19 engaging groove 15. The above described parts are so iltted as to provide arcano for free 'pivoting of portion 38 about pintle 1|, and portion 4| has a slot 88 providing for movement of bearing 36 with portion 38. Cutter bar C can therefore swing back if it encounters an obstruction, swinging portion 88 about pintle 1I and on its several guiding surfaces, but it will be noted that this swinging does not affect the relation of crankshaft 34 to sickle 45, nor the registration or stroke of the sickle.

It is necessary to prevent such pivoting of portion 38 under normal operation and a detent is provided for this purpose. In the present instance, cap 39 has an upstanding portion 8| extending beyond `rib 19 and having a notch 82 engaged by a latch 83 pivoted on a pin 84 carried by ears as 85 on upper portion 4I. Latch 83 is held in position by a tension rod 86 having a T head 81 on which is journaled a bifurcated cam lever 88 pressed against latch 83 by the pull of rod 88. Rod 88 is tensioned by a spring 89, Fig. 8. A nut and washer 90 anchor spring 8 9 to rod 85, and T head 81 is preferably threaded on rod 86 as shown. Swinging cam lever 88 to the dotted position shown in Fig. 6 releases the tension in rod 86, and, while so released, if cam lever 88 is rotated about rod 88 T head 81 will be shifted along rod 88 so that when the rod is again tensioned the adjustment will be different than before. In this manner the tension is readily controlled. When the tension is released as stated, cutter bar C may be readily swung back for ready access to pitman 48 and bearing 5I, or for other reasons. A stop 9| on plate 11 engages a stop 92 on flange 13 at the limit of backswinging of portion 4I, and a stop 93 engages the outer edge of flange 13 when portion 38 is in normal position. Therefore it is not necessary to rely on latch 83 except to hold the parts against swinging back under normal loads.

While latch 83 is sufficient for this purpose, it is sometimes desirable, for example when mowers of this type are made with long heavy cutter bars, to have additional resistance against swinging back. In this event an opening or socket 94 is provided in flange 13 and a detent as for example a ball 95 is pressed by a spring 96 contained in a tubular housing 91 through a suitable opening in plate 11 into yielding engagement with opening 94. Housing 91 is anchored to plate 11.

rl"he pressure of spring 96 is adjusted by a screw 98 threaded in a cap 99 forming an upper closure for housing 91. Sulcient turning effort on portion 38 and plate 11 will dislodge detent 95 from opening 94 after which the detent will travel along the surface of flange 13 without causing appreciable resistance. The pressure necessary to so dislodge detent 95 will assist latch 83 so that the latter need not be adjusted so tightly in the event that an unusually long cutter bar is used. Furthermore, in the event of extreme loads of this sort the resistance to swinging is applied at two substantially diametrically opposite points, which tends to equalize the pressure on pintle 1I and the several guiding surfaces. Detent 95 can be given an approximate adjustment, and the exact desired resistance arrived at by adjusting T head 81.

Drag bar D includes a bar |08, Fig. 1, and a bar |0I, the two being united in V relation and serving to support above mentioned journal portion 55 in fixed relation to the line of travel of the tractor T. Bar |00 extends transversely beneath the tractor substantially at right angles to the path of movement while bar I8| extends laterally and forwardly from a bracket |02 fixed on the tractor in any suitable manner as by bolts |02, and is Joined at |82b to bar |80. A brace |83 is extended between bars |88 and |0| to form a comparatively rigid triangular structure and to furnish an attaching point for certain mechanism as will appear. Drag bar D must be free to swing up and down to allow shoe S to follow uneven ground, and for this reason bar IOI is pivoted to bracket |02 at |84, while bar |00 is pivoted to a bracket |85 at |86. Due to the substantial spacing between pivots. |84 and |06, Journal is held firmly in place without any appreciable tendency to swing back under the drag of the cutter bar.

In the present instance, pivotal connections |84 and |06 are of a special nature as best shown in Fig. 3, the two being identical, it is necessary to describe only one. Bar I 8| is pivoted on a stud |01 carried by above mentioned bracket |02 and terminates in a ring-like eye portion |88 which extends about a stud |01 and is spaced therefrom by a bushing |09 and a body of rubber or rubberlike material IIO. Material IIO is compressed axially of stud |01 between a washer III and a cap I I2 by means of a nut |I3 threaded on stud |01. This compression tends to extrude a portion of material IIO betwen the open ends of eye |08 and washer |I| and cap II2 respectively, so that eye |88 is cushioned in all directions from any metallic contact with stud |01 or bracket |02. Up-and-down swinging of bar IOI is relatively freely accommodated by turning bushing |09 on stud I 01 or by distortion of the rubberlike material or both. These cushioned pivotal connections |04 and |06 serve to absorb a large amount of vibration normally present in a sickle drive and minimize pounding and wear of the parts. They also tend to isolate such vibra` tions from the tractor to an appreciable extent so as to minimize discomfort to the operator.

The type of mower disclosed as stated is particularly adapted for mowing the shoulders on highways where it is necessary to raise and lower shoe S quickly, for example to place it on a curb. to avoid culvert headings and the like, and it is also necessary to quickly swing cutter bar C to a substantially vertical position to pass mail boxes, avoid roadside fences and the like. These operations are under extremely close control by fluid pressure means as will now appear.

A suitable source of uid pressure of any wellknown type, not shown, is disposed on the tractor and supplies uid through a pipe I4 which leads to control valves generally designated as IIS and IIS which may be of any suitable or well-known type having operating handles I I1 and II8. The valves are biased to a neutral position by means of springs ||9I I9 and under these conditions the fluid flows to the valvesI through above mentioned pipe I I4 and returns to the supply through a hose or other conduit |20. There being no substantial pressure developed, no appreciable amount of power is consumed by this action. When it is desired to lift a part of the mower. the valves upon proper manipulation of one or the other of handles II1 and |I8, interrupt the ow of fluid into conduit |20 whereupon pressure is immediately developed in pipe I|4 and transmitted through connections I2I or |22 to actuate lifting rams as will appear directly. Release of handles II'I and |I8 blocks the escape of fluid backwardly through connections I 2| and |22 so that the rams are held in whatever position they have reached while fluid is again permitted to bypass through conduit |28. Actua- 7 tion of either handle I1 or ||8 in the opposite direction releases iiuid from either connection |2| or |22 to conduit |20 and allows the ram connected to a particular conduit to retract. Valves and I I6 in the present instance are mounted on a plate |23 supported on the tractor in a convenient position for ready manipulation by the operator. Plate |23 in the present instance is fixed with the tubular column |24 xed with a bracket |25 rigidly mounted on the tractor. For lifting shoe S, a iiexible connection as chain |26 is extended from above mentioned brace |03 upwardly to a bifurcated tension member or yoke |21. Yoke |21 may be raised with the necessary degree of force by means of a cylinder |28disposed within the yoke as betterl seen in Fig. 14. Cylinder |28 is seated on a pedestal |29 in the present instance carried by a portion of above mentioned bracket |25 and has a base portion |30 slotted to serve as a guide for side portions |3| and |32 of yoke |21. Cylinder |28 has a ram |33 actuated by a piston |34 within cylinder |25 and connected to side portions |3| and |32 by means of a bolt |35, spacers as |36 serving to locate ram |33 properly within yoke |21. Side portions |3| and |32 approach each other above bolt and are united as by a bolt |31. In this manner a tension member is provided having sufficient strength to lift drag bar D and shoe S. Side portion |32 has an outwardly extending ear |38 to which is connected a retracting spring |39 anchored to above mentioned brace |03 as best seen in Fig. 1. Spring |39 exerts a continuous downward pressure on yoke |21 and maintains piston |34 at the bottom of cylinder |28 at such times as iluid pressure is not transmitted to cylinder |28. Pressure is transmitted when desired through above mentioned connection I2| to cylinder |28. Piston |34 being at its lowermost position, yoke |21 is so placed as to result in substantial slack in chain |26. Thus shoe S is free to Iioat on uneven ground without interference from any part of the lifting connection.

A counterbalancing spring 40 extends transversely of the tractor and upwardly from brace |03 to an anchorage |4|, Fig. 1, on above mentioned bracket |05 and is attached to an adjusting bolt |42 having a nut |43 engaging a bolt for adjusting the tension of spring |40 as will be apparent. Spring |40 thus carries part of the weight of shoe S so as to avoid excessive ground pressure.

Upward swinging of cutter bar C is accomplished in a somewhat similar manner, a chain or ilexible connection |44 engaging a pin |45 best shown in Fig. 2 spaced upwardly and outwardly from above mentioned journal 55. Chain |44 is connected to a yoke generally designated as |46 within which is positioned a fluid cylinder |41. Pressure fluid transmitted through connection |22 to cylinder |41 shifts yoke |46 to the right as seen in Fig. 2 thereby pivoting shoe S in a clockwise direction about journal 55. This action can swing cutter bar C to a substantially vertical position within the margins of a tractor wheel |48 so that the mower in this position will clear anything which the tractor will clear.

Turning to Fig. 16, cylinder |41 has a base portion |49 slotted for slidably receiving side portions 8 best seen in Fig. 1'?, abutment |54 being slotted for slidably supporting side portions |50 and |5| of yoke |46. Ram |52 has a piston |55.slidable in cylinder |41 and, when pressure fluid is introduced into connection |22, cylinder |41 is first forced to the left in Fig. 16 until base |49 rests against abutment |54. Further movement of cylinder |41 is thus blocked and piston |55 then moves to the right forcing with it ram |52 and yoke |46. This exerts suicient tension on chain |44 to pivot shoe S and rock cutter bar C upwardly as stated. When iiuid is released through connection |22, the weight of cutter bar C moves yoke |46 to the left along witlt| piston |55. However, in order to completely expel the iiuid from cylinder |41, a spring |56 attached to a nger |51 extending from base |49 forces cylinder |41 to the right to the position shown in Fig. 16. Spring |56 is anchored to a bracket |58 fixed on the tractor. It will now be apparent, that spring |56 maintains cylinder |41 in its extreme right position in Fig. 16 and exerts a gentle tension on yoke |46 and chain |44. Up-and-down movement of cutter bar C is accommodated bythe necessary to-and-fro motion of yoke |46 together with cylinder |41, this motion never being sufllcient to seat base |49 on abutment |54. In this manner.

, the cutter bar is allowed to iioat over uneven |50 and |5| of yoke |46. Cylinder |41 also has a. 7

ram |52 which is coupled to side portions |50 and |5| by means of a bolt |53 in a manner similar to the connection of above mentioned ram |33. Spaced from base |49 is an abutment |54 extending outwardly from above mentioned bar |00 as ground without interference from cylinder |41.

An assisting spring |59 is pivoted to an ear |60' on shoe S outwardly and above journal 55 and tensioned between above mentioned bracket |58 and ear |60. The pull of spring |59 thus exerts a continuous turning moment on shoe S in a cutter bar raising direction. An adjusting bolt |6| may be manipulated in known manner to adjust the tension in spring |59 so as to avoid unnecessary pressure in cylinder |41 while not interfering with prompt lowering of the bar when desired.

The operation of the invention has been described where it would facilitate an understanding of the construction and further description should be unnecessary except to say that the 5 mower bar projects at one side of the tractor for the usual purposes and may be swung upwardly substantially instantly upon manipulation of valve control lever ||8 as necessary for avoiding obstructions such as fences and mail boxes and downwardly equally promptly when the obstructions are passed. This up-swinging has no effect on the registration of the sickle since crank shaft 34 is journaled on the same portion of shoe S which swings with cutter bar C. In case it is desired to lift shoe S as necessary for avoiding curbs and the like, this may be done substantially instantly by manipulation of valve control lever |1. In case an obstruction is encountered. latch 83 releases and cutter bar C swings back to the position indicated in Fig. '7 so ..a s to relieve the parts from injury. Again this does not affect the registration since crank shaft 34 remains in the same relation with cutter bar C and swings with it. Detent assists latch 83 in holding cutter bar C in operative position if necessary.

The above being a complete description of an illustrative embodiment of the invention, what is claimed as new and desired to be secured by Letters Patent of the United States is.'

I claim:

1. In a tractor mounted mower having a dragbar including a journal portion extending substantially in the direction of progress of the tractor, an inner shoe pivotally associated with the u drag-bar, a cutter bar rigid with the shoe, the

pivotal connection including a part-spherical portion on said journal portion on which said shoe is seated and an eccentric bushing on said journal portion spaced from said part-spherical portion, shifting of said eccentric bushing serving to change the relation of said shoe and its associated pa-rts in relation to said drag-bar, but said shoe being pivotable about said journal portion always about the center-line of said journal, whereby adjustment of said shoe by turning said bushing will affect the lead of the cutter bar while maintaining a predetermined tilt of the cutter bar when swung up-or-down about said journal.

2. In a tractor mounted mower having a dragbar, including a journal portion extending substantially in the direction of progress of the tractor, an inner shoe pivotally associated with the drag-bar, a cutter bar rigid with the shoe, the pivotal connection including a part-spherical portion on said journal portion, on which said shoe is seated, a fitting spaced from said partspherical portion and in relation to which said shoe is adjustable angularly about said partspherical portion, an eccentric bushing rotatably received in said fitting and on said journal portion, shifting of said eccentric bushing serving to change the relation of said fitting and said shoe to said drag bar, shifting of said fitting and said eccentric bushing adjusting said shoe in any desired direction, but said shoe being pivotable 'about said journal portion with said fitting and said bushing always on the center line of said journal portion, whereby adjustment of said shoe for either lead or tilt will affect respectively said lead or tilt only when said cutter bar is swung up or down about said journal.

3. In a tractor mounted mower having a dragbar including a journal portion extending substantially in the direction of progress of the tractor, an inner shoe pivotally associated with the 10 drag-bar, a cutter bar rigid with the shoe, the pivotal connection including a sleeve portion on the inner shoe surrounding said journal portion and larger than said journal portion to provide a clearance area therebetween, a pivot bearing on the journal portion connecting said journal portion with said sleeve portion, adjustable bearing means on said journal portion spaced axially thereof from said pivot bearing and adjustably fixed in relation to said shoe for adjusting movement in any direction substantially normal to the axis of said sleeve within the limits dened by said clearance area at the end of said sleeve spaced from said pivot bearing, shifting of said adjustable bearing means serving to change the relation of said shoe and its associated parts in relation to said drag bar, but said shoe being pivotable about said journal portion always about the center line of said journal, whereby adjustment of said shoe for either lead or tilt by shifting said adjustable bearing means relatively to said shoe` will affect respectively said lead or tilt only when saidcutter bar is swung up or down about said journal.

PAUL R. SCHROEPPEL.

REFERENCES CITED The following references are of record ln the file of this patent:

UNITED STATES PATENTS Number Name Date 2,204,333 Wagner June 11, 1940 2,204,335 Wagner June 11, 1940 2,245,452 Simpson et al June 10, 1941 2,249,633 MacDonald et al. July 15, 1941 2,256,413 Simpson Sept. 16, 1941 2,291,987 Rogers Aug. 4, 1942 2,324,563 Custenborder July 20, 1943 2,328,838 Oberlink Sept. 7, 1943 

